Developing New Measurement Capabilities with Nanochannel Liquid Phase TEM

Abstract: By creating new designs of liquid phase transmission electron microscopy (TEM) systems we develop new capabilities for measurements of physical and chemical processes. A microfabricated chip with suspended nanochannels [1,2] provide high resolution imaging possibilities, direct TEM imaging of flow in nanochannels, and also makes electron holographic TEM possible [3]. Mapping the particle velocity profile gives a position dependence of flow velocity matching that of parabolic Poiseuille Flow in the observed nan… Show more

“…The development of liquid cell electron microscopy has enabled in situ experiments on the length and time scales necessary to capture many nanocrystal chemical transformations. − Liquid cell electron microscopy experiments on nanocrystal growth, − etching, − attachment, − assembly, − and other interactions have provided useful information for previously unseen processes. Further advancements such as graphene encapsulation, ,− heating, and other capabilities in the liquid cell have made liquid cell electron microscopy an even more powerful technique for materials scientists.…”

“…12−16 Liquid cell electron microscopy experiments on nanocrystal growth, 17−20 etching, 21−24 attachment, 25−27 assembly, 28−30 and other interactions have provided useful information for previously unseen processes. Further advancements such as graphene encapsulation, 26,31−33 heating, 34 and other capabilities in the liquid cell 35 have made liquid cell electron microscopy an even more powerful technique for materials scientists.…”

Gold Nanocrystal Etching as a Means of Probing the Dynamic Chemical Environment in Graphene Liquid Cell Electron Microscopy

“…The development of liquid cell electron microscopy has enabled in situ experiments on the length and time scales necessary to capture many nanocrystal chemical transformations. − Liquid cell electron microscopy experiments on nanocrystal growth, − etching, − attachment, − assembly, − and other interactions have provided useful information for previously unseen processes. Further advancements such as graphene encapsulation, ,− heating, and other capabilities in the liquid cell have made liquid cell electron microscopy an even more powerful technique for materials scientists.…”

“…12−16 Liquid cell electron microscopy experiments on nanocrystal growth, 17−20 etching, 21−24 attachment, 25−27 assembly, 28−30 and other interactions have provided useful information for previously unseen processes. Further advancements such as graphene encapsulation, 26,31−33 heating, 34 and other capabilities in the liquid cell 35 have made liquid cell electron microscopy an even more powerful technique for materials scientists.…”

Gold Nanocrystal Etching as a Means of Probing the Dynamic Chemical Environment in Graphene Liquid Cell Electron Microscopy